A cutting assembly for use in a hydro-cutting system in which water and food products are conveyed through tubes and the food products are sliced into smaller pieces. The cutting assembly includes multiple disks and U-shaped blades. legs of the blades are mounted between the substantially parallel disks on opposite sides of the disks, thereby holding the blades in place. A rotationally-driven motor driveshaft extends through the assembly and the assembly is mounted in a tube. When the water and food products are conveyed into the cutting assembly, the rotating assembly slices pieces from the food product, and the pieces are separated from the water for later use or processing. The water can be used in another slicing cycle.
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1. A cutting assembly configured for rotational motion in a path of flowing water and food products to slice the food product into smaller pieces, the cutting assembly comprising:
(a) at least a first plate and a second plate, the plates mounted substantially parallel to, and adjacent, one another to form a space between facing surfaces of the plates and a plurality of openings aligned through said at least two plates through which a driveshaft is configured to extend; and
(b) at least a first blade having a first leg extending through the space, the first blade extending radially outwardly around a peripheral edge of the first plate and having a second leg extending radially inwardly toward the driveshaft on an opposite side of the first plate.
5. A cutting apparatus for slicing food products that are conveyed through a conduit with water by a pump, the apparatus comprising:
(a) a cutting assembly rotatably mounted in the conduit, the cutting assembly including at least a first plate, a second plate and a first blade;
(b) wherein the first and second plates are mounted substantially parallel to, and adjacent, one another to form a space between facing surfaces of the plates;
(c) a driveshaft extending from a rotational-driving motor through at least said first and second plates; and
(d) wherein the first blade has a first leg extending through the space, and the first blade extends radially outwardly around a peripheral edge of the first plate and has a second leg extending radially inwardly toward the driveshaft on an opposite side of the first plate.
9. A method of slicing food products that are conveyed with water through a conduit by a pump, the method comprising:
(a) mounting a cutting assembly in the conduit, wherein the cutting assembly includes at least:
(i) a first plate and a second plate mounted substantially parallel to, and adjacent, one another to form a space between facing surfaces of the plates;
(iv) a first blade having a first leg mounted in the space, the first blade extending radially outwardly around a peripheral edge of the first plate and extending a second leg of the first blade radially inwardly on an opposite side of the first plate;
(b) extending a driveshaft from a rotational-driving motor through at least said first and second plates;
(c) conveying water and food products through the conduit; and
(d) rotating the cutting assembly by engaging the rotational-driving motor.
2. The cutting assembly in accordance with
3. The cutting assembly in accordance with
(a) a third blade having a first leg extending through the space, the third blade extending radially outwardly around a peripheral edge of the first plate spaced from the first blade, the third blade having a second leg extending radially inwardly toward the driveshaft on an opposite side of the first plate from the third blade's first leg; and
(b) a fourth blade having a first leg extending through the space, the fourth blade extending radially outwardly around a peripheral edge of the second plate spaced from the second blade, the fourth blade having a second leg extending radially inwardly toward the driveshaft on an opposite side of the second plate from the fourth blade's first leg.
4. The cutting assembly in accordance with
6. The cutting apparatus in accordance with
7. The cutting apparatus in accordance with
(a) a third blade having a first leg extending through the space, the third blade extending radially outwardly around a peripheral edge of the first plate spaced from the first blade, the third blade having a second leg extending radially inwardly toward the driveshaft on an opposite side of the first plate from the third blade's first leg; and
(b) a fourth blade having a first leg extending through the space, the fourth blade extending radially outwardly around a peripheral edge of the second plate spaced from the second blade, the fourth blade having a second leg extending radially inwardly toward the driveshaft on an opposite side of the second plate from the fourth blade's first leg.
8. The cutting apparatus in accordance with
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The invention relates generally to hydraulically fed food cutting (“hydro-cutting”) apparatuses, and more particularly to a rotating blade assembly used in a hydro-cutting apparatus to cut food products into a plurality of smaller pieces.
Many food products, particularly vegetables and fruits, are processed prior to sale to preserve the food so it is safe and appealing at the time of consumption. The processing can be either by canning or freezing, among others. Most food products must be sliced or otherwise shaped into an edible size prior to the preservation process unless it is an edible size before processing. Slicing and shaping operations traditionally have been accomplished with sharpened blades. Such blades can be hand-held, but hand-held knives are relatively slow and dangerous to the person using them. Other blades are machine-driven, or use machines to drive the food product into a stationary or machine-driven blade. Food cutting machines increase the speed and consistency of slicing, and provide a higher degree of safety in the food slicing industry.
Recent advances in food product cutting technologies have resulted in the hydraulically fed cutting apparatus, which is referred to by the shorthand term “hydro-cutting”. Hydro-cutting involves the propulsion of water and food products, typically at very high speed, through a path that includes a stationary cutting blade. Production cutting systems and related knife fixtures are generally well known in the art of hydro-cutting vegetable products. Typical hydro-cutting systems have a so-called knife fixture that is mounted at a position along the path of the food product to slice parallel to the flow of water. Such parallel cutters usually cut or slice into strips or into a helical shape. In such a system, the food products are conveyed one-at-a-time in single file succession into the stationary cutting blades with enough kinetic energy to carry the product through the stationary knife fixture.
One disadvantage in the food products resulting from conventional hydro-cutting has been the shape of the food products after cutting. The standard “French fry” typifies the parallel cutting systems, because the resulting food products have a familiar elongated shape with a square cross-section. There is a need for a cutting apparatus that provides superior shapes, whether the superiority arises from the subsequent processing or the shape for aesthetic purposes, or both.
In accordance with the invention, a rotatably-mounted and driven knife fixture is provided for cutting vegetable products, such as raw potatoes, into curved shapes as the vegetable products are conveyed past the knife fixture in a stream of water. The rotary knife fixture may include a blade holder and supporting housing to form concave, scoop-shaped pieces emulating cut sections of curved celery and ready for use or further processing without further cutting.
The rotary knife fixture includes a circular blade holder adapted to be rotatably driven within a vegetable product flow path such as along a hydraulic flow circuit. The blade holder includes a series of blades that are looped in a U-Shape and stacked side by side and held in place by circular inner discs. The blade fixture is placed in a modified cutter head housing that has been designed to gently feed the product downstream into the rotating cutting blade. After the food product has been cut, its smaller pieces are carried downstream by the surrounding water and separated on a conveyer. The blade holder has been designed to be easily removed for replacing blades with alternate configurations or with fresh sharp blades.
In describing the preferred embodiment of the invention which is illustrated in the drawings, specific terminology will be resorted to for the sake of clarity. However, it is not intended that the invention be limited to the specific term so selected and it is to be understood that each specific term includes all technical equivalents which operate in a similar manner to accomplish a similar purpose. For example, the word connected or terms similar thereto are often used. They are not limited to direct connection, but include connection through other elements where such connection is recognized as being equivalent by those skilled in the art.
The apparatus for cutting food products according to a first embodiment of the invention is shown in an operable configuration with various other components of a hydro-cutting apparatus in
The cutting region 20 houses an assembly 10 for cutting the products 25 into the pieces 24 as described above. The assembly 10 is shown in
The assembly 10 is shown in more detail in
Although two blades are shown positioned at 180 degree spacing (along a diameter of the circular disk 112), three or more blades can be mounted to each disk. It is also contemplated to use only one blade on each disk. Three blades may be evenly spaced around the periphery of each disk, for example at every 120 degrees, rather than every 180 degrees as in the embodiment of
In the embodiment of the assembly 10 shown in
Upon rotation of the cutting assembly 10 in the cutting region 20, any food products 25 that are conveyed into the cutting assembly 10 first contact the sharp leading edge of one of the blades or the curved peripheral edges 112a or 114a of the disks 112 and 114 (between the blades 102 and 104). The location of impact will depend upon the location of the blades in their rotational movement relative to the food product as the food product approaches the assembly 10. If the first impact is on the curved peripheral edges 112a or 114a, the assembly will continue rotating with the food product in contact therewith until the leading sharp edge of the next blade comes into contact with the food product.
Once the sharp edge of the first blade comes into contact with the food product, the sharp edge of the blade will readily pass through the food product and exit the opposite side thereof, forming a U-shaped cut through the food product that severs a food piece 24 from the remainder of the food product 25. Once this occurs, the piece 24 severed from the food product 25 is free to move away from the large portion of the food product 25 that remains. Because the assembly 10 is rotating rapidly and the water forces the food products 25 against the assembly 10, for every blade on the assembly a piece 24 is formed once during every rotation of the assembly 10. Thus, for the embodiment shown in
The water flowing around the pieces 24 preferably dislodges and removes the pieces 24 severed from the remaining portion of the larger food product 25. The pieces 24 move away to create space for the food product 25 to continue moving toward the assembly 10 (as the water forces the food product 25 downstream accordingly) while the next blade rotates further to make contact with the food product 25. The impact of the next blade repeats the cutting cycle by forming another slice in the food product very similar to the previous slice. Each cutting movement of each blade frees another piece 24 to be removed from the large food product by the action of the water. This cutting and flowing action proceeds in series as the water drives the food products against the assembly 10, and allows the cutting blades to remove series of pieces from the large food product until the food product is fully sliced into pieces 24. These pieces 24 flow downstream from the cutting region 20 to the conveyor 23 where they are separated from the water, which is re-used after possibly being filtered. The separated pieces are preferably conveyed to be processed further, or to containers.
As noted above, the peripheral surfaces 112a and 114a are shaped in a complementary fashion. As the food product 25 moves toward the assembly 10 after pieces have been removed therefrom, the shape of the outer surface of the food product 25 is determined by the shape of the outer surface of the sharpened blade portions 102a and 104a. The peripheral surfaces 112a and 114a of the disks accept the blade-shaped outer surface of the food product 25 so that when the next cut is made by the blades, the food product pieces have the same, or very similar, shape as the previous pieces. These pieces have a shape that is determined by the shape of the opening between the peripheral surfaces 112a and 114a and the blades 102 and 104. By making the peripheral surfaces 112a and 114a similar to the shape of the cut surfaces of the food product 25, the pieces 24 are shaped desirably.
As illustrated in the schematic of
The shape of the pieces can be modified by modifying the shapes of the blades used on the assembly, such as to square, v-shaped or even irregular, along with the shape of the disks' peripheral edge, in order to provide a desired shape. Such alternative shapes will become apparent to the person of ordinary skill from the description herein.
This detailed description in connection with the drawings is intended principally as a description of the presently preferred embodiments of the invention, and is not intended to represent the only form in which the present invention may be constructed or utilized. The description sets forth the designs, functions, means, and methods of implementing the invention in connection with the illustrated embodiments. It is to be understood, however, that the same or equivalent functions and features may be accomplished by different embodiments that are also intended to be encompassed within the spirit and scope of the invention and that various modifications may be adopted without departing from the invention or scope of the following claims.
Patent | Priority | Assignee | Title |
10751898, | Sep 08 2015 | SOUTHERN FIELD WELDING, LLC | Method for water flow control for hydraulic food cutter |
Patent | Priority | Assignee | Title |
2119260, | |||
2664130, | |||
2884973, | |||
3109468, | |||
3490504, | |||
3729143, | |||
3796115, | |||
3956825, | Feb 19 1975 | Raymond Lee Organization | Potato and vegetable peelers |
4043036, | Jan 27 1977 | INTERNAL REVENUE DISTRICT | Power driven shaver |
4360429, | Dec 16 1980 | Morris Industries Ltd. | Apparatus for recovering fluids floating on water |
4372184, | Feb 25 1981 | J. R. Simplot Company | Cutting assembly |
4523503, | Aug 22 1983 | LAMB-WESTON, INC | Apparatus for making waffle-cut potato |
4590835, | Mar 23 1984 | Calbee Foods Co., Ltd. | Cutter for food materials |
4614141, | Jun 13 1985 | GME, INC , 4242 S EAGLESON ROAD, SUITE 108, IDAHO, A CORP OF CA | Food product centering and aligning tube |
4911045, | Jun 08 1987 | Decorative form hydraulic food product cutting blade assembly | |
5095875, | Jun 21 1989 | McCain Foods Limited | Knife for producing waffle and lattice cuts |
5168784, | Sep 19 1991 | CONAGRA FOODS PACKAGED FOODS COMPANY, INC | Hydro-cutter |
5346423, | Feb 01 1993 | Mattel, Inc | Toy for making simulated french fries |
5362149, | Mar 16 1990 | Vortex finder high shear mud mixing system | |
5392758, | Mar 03 1992 | Comadur S.A. | Bracing device for the blades of a saw mill, saw mill using a device of this type |
5655428, | Oct 16 1992 | McCain Foods (Aust) Pty. Ltd. | Food slicing apparatus |
5687921, | Jan 06 1995 | DE PECKER N V | Reducing apparatus |
5992284, | Nov 17 1997 | Urschel Laboratories Incorporated | Knife and cutting wheel for a food product slicing apparatus |
6457393, | Mar 06 2001 | J.R. Simplot Company | Hydraulic cutting system with controlled deceleration conduit |
6725765, | Jan 10 2003 | Vanmark Equipment, LLC | Cutter blade assembly for cutting vegetable products |
6805030, | Feb 12 2001 | J.R. Simplot Company | Potato-strip cutting deceleration system |
6883411, | Apr 10 2001 | Urschel Laboratories Incorporated | Impeller for rotary slicing machine |
6952989, | Oct 07 2002 | URSCHEL LABORATORIES, INC | Apparatus for cutting food product |
6955110, | Mar 27 2002 | National Technology & Engineering Solutions of Sandia, LLC | Apparatus and method for cutting soft materials, especially meat |
6973862, | Feb 04 2002 | URSCHEL LABORATORIES, INC | Method and apparatus for delivering product to a cutting device |
7739949, | Jul 14 2006 | Method and device for cutting and coring materials in a hydrocutting apparatus | |
8104391, | Feb 13 2007 | URSCHEL LABORATORIES, INC | Apparatus and method for slicing food products |
8109188, | Jul 18 2008 | Frito-Lay Trading Company GmbH | Modified slicing shoes and method for making food product shavings |
8544373, | Nov 10 2008 | SIMONDS INTERNATIONAL L L C | Spline arbor guided saw blade |
8671832, | Dec 10 2009 | Whirlpool Corporation | Food processor with an external control for adjusting cutting thickness |
8939055, | Feb 11 2013 | McCain Foods Limited | Cutting block for food products |
9265381, | Feb 25 2011 | Whirlpool Corporation | Food processing device with an externally operated adjustment mechanism |
9517572, | Dec 27 2011 | URSCHEL LABORATORIES, INC | Apparatuses for cutting food products |
20030232116, | |||
20070034291, | |||
20070193429, | |||
20080083312, | |||
20100236372, | |||
20100255135, | |||
20100282887, | |||
20130087032, | |||
D722822, | Jun 29 2012 | H J HEINZ COMPANY BRANDS LLC | Cutter blade |
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